Cri.cal Density. All galaxies a"ract each other via gravity. Gravita.onal a:rac.on slows the expansion. How it behaves depends on the density:
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1 Astronomy 101
2 Cri.cal Density All galaxies a"ract each other via gravity. Gravita.onal a:rac.on slows the expansion. How it behaves depends on the density: High Density: Expansion slows, stops, & reverses. Low Density: Keeps expanding forever. Dividing Line = Cri4cal Density
3 Density Parameter: Ω Ω>1: High Density Closed Universe Ω=1: Cri.cal Density Open Universe Ω<1: Low Density Open Universe
4 What is Ω? Observers: Best Es.mate is Ω= (or higher) Hard to measure slowing of expansion rate. Galaxies evolve in an (as yet) unknown way. Problem of accoun.ng for Dark Ma:er. Theorists: (Some) would like Ω=1, so introduce Λ>0
5 Closed Universe: Ω>1 Gravity of all ma:er is enough to eventually overcome the expansion of the Universe: Expansion slows to a maximum size & stops. Universe re collapses: Galaxies get closer together Get a cosmological blueshi9 Universe grows ho:er & denser Collapses in the Big Crunch
6 A Phoenix from the Ashes? A\er the Big Crunch, what then? Nothing. Another Big Bang creates a new Universe. Second Law of Thermodynamics: Entropy increases in a closed system. Next Big Bang starts with greater entropy. Will expand for longer than previous one.
7 Open Universes: Ω<1 or Ω=1 Universe keeps expanding forever. Gravity slows the expansion a li:le: Lower the density, the less the expansion slows. A Cri.cal Density Universe slows to a stop at infinite.me. A Sub cri.cal Density Universe approaches a constant speed at infinite.me.
8 Evolu.on of an Open Universe As the Universe expands: Space between galaxy clusters widens. Universe steadily cools down. Expansion con.nues forever. Details depend on: Stellar Evolu.on Quantum Mechanics
9 Star Forma.on Present Time (t yrs): Most stars are metal rich, and make more metals ejected in supernova explosions. Next genera.on starts with a li:le less Hydrogen and more metals. Some frac.on of the star s ma:er is locked up in stellar remnants: white dwarfs, neutron stars & black holes.
10 End of Star Forma.on t=10 14 years: Successively more ma:er is locked up in stellar remnants, deple.ng the free gas reserves. Cycle of star birth and death is broken. Nuclear fuel is exhausted. Red dwarfs burn out as low mass white dwarfs Remaining ma:er is locked up in black dwarfs, cold neutron stars, and black holes.
11 Solar System Evapora.on t=10 17 years: Weak gravita.onal encounters between stars are rare, but slowly disrupt orbi.ng systems: Planetary systems get disrupted by stellar encounters and their planets sca:ered. Wide binary systems are broken apart. Close binary stars coalesce into single remnants.
12 Dissolu.on of Galaxies t=10 19 years: Stellar remnants within galaxies interact over many many orbits. Some stars gain energy from the interac.on and ~90% get ejected from the galaxy. Others lose energy and sink towards the center. These coalesce into a Supermassive Black Hole.
13 Dissolu.on of Ma:er? t=10 32 years: Some GUTs theories predict that protons are unstable. Protons decay into electrons, positrons, to neutrinos. All ma:er not in Black Holes comes apart. Current experimental limits on the proton decay.me may be much larger than years.
14 Evapora.on of Black Holes t= years: Black Holes slowly evaporate by emijng par.cles and photons via Hawking Radia.on. Supermassive Black Holes evaporate completely one by one in a last final weak flash of gamma rays in ~ years. The end of the epoch of organized ma:er
15 The Big Chill A\er black holes all evaporate: Increasingly redshi\ed photons. Universe con.nues to cool off towards a Radia.on Temperature of absolute zero. Only ma:er is a thin, formless gas of electrons, positrons, neutrinos. The end is cold, dark, and disordered...
16 Effects of Dark Energy and Dark Ma:er Dark Ma:er and Dark Energy are not well understood, but are major cons.tuents of the Universe Many experiments underway to characterize both LHC DES LSST JDEM Both can alter the fate of the Universe Dark Energy counteracts gravity though, increasing the expansion Probably makes the Universe more likely to be open
17 Possible Fates of the Universe Distance Between Galaxies Very Open Ω<<1 Critical/Open Ω=1 Closed Ω>1 Oscillating? ~100 Billion Years Time
18 The opinion on which [fate of the Universe] is preferable cannot be classified as a debate in science, however, unless we can explain what point is served by the outcome of the debate. P.J.E. Peebles Principles of Physical Cosmology (1993)
19 Some say the world will end in fire. Some say in ice. From what I ve tasted of desire I hold with those who favor fire. But if it had to perish twice, I think I know enough of hate To say that for destruction ice Is also great And would suffice. Robert Frost Fire and Ice (1923)
20 This is the way the world ends This is the way the world ends This is the way the world ends Not with a bang but a whimper. T.S. Eliot The Hollow Men (1925)
21 It s the end of the world as we know it It s the end of the world as we know it It s the end of the world as we know it And I feel fine REM (1987)
22 Summary: The Fate of the Universe depends on the density of ma:er. Closed Universe: Enough ma:er to stop the expansion Collapses in a Big Crunch Open Universe: Expands forever Ends in a cold, disordered state.
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